Machine for making corner mounts



1,627,667 May 10 1927. L. S'RILEY MACHINE FOR MAKING CORNER MOUNTS Original Filed June 17, 1924 6 Sheets-Sheet 1 May 10 1927. 1,627,667

L. s. RILEY MACHINE FOR MAKING CORNER MOUNTS Original Filed June 17. 1924 e Sheets-Sheet 2 I I I I I I I I I I l I l l 1,627,667 L. S. RILEY MACHINE FOR MAKING CORNER MOUNTS Original Filed June 17, 1924 6 Sheets-Sheet 5 1,627,667 May 10 1927' 1 L. s. RILEY MACHINE FOR MAKING CORNER MOUNTS Original Filed June 17 1924 s Sheets-Sheet 4 May 10 1927. 1,627,667

1.. s. RILEY MACHINE FOR MAKING CORNER MOUNTS Original Filed June 1' 92 6 Sheets-Sheet 5 IMHMM" Patented May 10, 1927.

UNITED STATES PATENT OFFICE.

LESTER S. RILEY, READING, "MAS SAGHUSET'IS.

MACHINE FOR MAKING CORNER MOUNTS.

Application filed June 17, 1924, Serial No. 720,540. Renewed November 29, 1926. g

tions of the mount. Because of the small size of such mounts, the work of preparing them for use takes considerable time and requires delicate fingers and infinite patience which is extremely arduous and nerve racking to the ordinary person, and for these reasons, such vmounts, although attractive and artistic in appearance, have not gone into the general use which their advantages would. warrant.

The main object of my invention is the for producing closed corner mounts which are ready forinstant use without involving any work on the part of the user other than moistening the adhesive coated 'back of the mount and placing it in position. I

In its preferred embodiment, my invention contemplates a machine adapted for mak- .ing and delivering complete closed corner mounts in a continuous manner and at a high rate of speed. The corner so designed to be made comprises a Hat body-portion having on one face a right-angled pocket adapted to receive and hold the corner of a card, photograph, or other similar article, the back face of the said body-portion be ing coated with adhesive whereby the cornor may be affixed in any desired position to the page of an album. For mounting a card, four cornersare employed, and after being aflixed in proper location, the corners of the card or other article to be mounted are inserted in the pockets of the corners, the card covering up or concealing the body:

portions of Wm, leaving only the provision of a simple and eflicient machine faces of the pockets visible, which if,wel]

and artistically made serve rather to en hance the mounting of the card. In the machine hereinafter described, the corners are made from two endless strips of suitable material fed through the machine, 65

the finished corners being discharged at the delivery end in a continuous stream. The body portion of the corner is formed fromone of said strips which is of the exact width of the corner coated with adhesive on its bottom side. In introducing this strip into the machine, its forward end is squared and the corners are cut off diagonally so that when the cut-off corners are turned over upon the body portion at an angle of fortyfive degrees with the longitudinal axis of the strip, the turned over portions form flanges in right angled relation to each other and with a right-angled cap later applied make up the right-angled corner receiving'm pocket. The body strip is fed through the -machine in a step-by-stepmanner, each step being the length of one corner, and passes over a 'die plate where means areprovided for turning up the two pocket forming flanges and then for wiping the said flanges downwardly toward the body portion. From this point, the strip is fed forward against a stop in position to receive the ca means being provided during this period or holding the flanges down upon the body portion until just before the cap is applied.

The cap is perforated from a second strip of suitable material which is preferably fed intermittently through the machine at right angles to and slightly above the body strip and over a die plate, and as soon as the body strip is fed forward, a reciprocating punch descends, perforating the cap from the cap strip, carrying it downwardly through the die plate and pressing it upon the turned over flanges of the body strip, thereby completing the corner. Since the body strip is coated with adhesive on its bottom side, the upper faces of the turned over flanges present adhesive coated surfaces and means are provided for moistening the cap strip so that the cap is in a moistened downward movement of the punches, there-' fore, a corner is completed and out off and on the upward movement the flanges on the next corner are turned upwardly and wiped over and before the punches complete their next full downward stroke, the strip is fed forward in position to receive the cap.

, In the drawing illustrating one form of my invention, Fig.1 is a side elevation with the front or delivery end on the right, of

a machine for making closed corner mounts, constructed and adapted to be operated in accordance with my invention;

Fig. 2.is a front or delivery end elevation of the same;

Fig. 3 is a plan view of the machine on an enlarged scale, looking downwardly on line 3-3 of Fig. 2;

Fig. 4 is a bottom plan view of the plunger plate and the punches for cutting out the corner cap and for cutting off the completed corner; I

Fig. 5 is a side elevation on an enlarged scale of the operative parts of the machine, looking from right to left in Fig. 3, and showing more particularly the means for feeding the body strip forward into the machine;

Fig. Gis a vertical central sectional view, partly in elevation, of same as viewed from the opposite side shown in Fig. 5;

Fig. 7 is a vertical central sectional view partly in elevation on line 77 Fig. 3'as viewed from the front or delivery end of the machine.

Fig. 8 is a side elevation, partly in section, of the means for feeding the body strip of material in a step-by-step manner;

Fig. 9 is a view in perspective of the forward end of the recessed die plate over which the body strip is fed;

Fig. 10 is a View in perspective of the plate or tongue mounted in the recessed dieplate above the body strip for turning upthe flanges on the body strip.

Fig. 11 is an end elevation of the cap dieplate looking from right to left in Fig. 7 and showing the means for holding down the flanges as the body strip is fed forward to the cap-applying point;

Fig. 12 is a bottom plan view of the impression table or bridge adapted'to support the corner during the application of the cap thereto;

Fig. 13 is aplan view of the two dieplates showing a com leted corner being Fig: 11 is a sectional view on line l b-14 in Fig. 13;

Fig. 15is a plan view of thebody dieplate showing the tongue depressed into the recess in the die-plate to turn up thecorner edges on the forward end of the body strip with the wiping means approaching from the two sides;

Fig. 16 is a sectional view on line 16-46 in Fig. 15;

Fig. 17 is a view similar to Fig. 15, but showing the wiping means at the end of the wiping movement with the corner edges wiped down over the tongue;

Fig. 18 is a sectional view on line 18-18 in Fig. 17;

Fig. 19 is a plan view-of the body dieplate and the forward end of the cap dieplate showing the body strip fed forwardly and in position to receive the cap, the turned over edges of flanges being held down;

Fig. 20 is a sectional view on line 20-20 in Fig. 19;

Fig. 21 is a plan view of the cap dieplate and the forward end of the body dieplate with the punches applying the cap and severing the completed corner from the body strip;

Fig. 22 is a sectional view on line 22-22 in Fig. 21; and

Fig. 23 is a view in perspective of the body portion of the corner and the cap to be applied thereto.

The frame- Referring to the drawings, the frame of the machine may be made in any suitable form, butas shown comprises two upright goosenecked ribbed standards spaced apartfor supporting the driving or operating mechanism and a sub-base plate 31 for carrying the dies and their co-ordinate mechanisms. The standards and plate may be made in one casting and theplate may be provided with ears 32 whereby the frame may be fastened by bolts 33 to a plate 34 supported on legs 35 which may be made in pairs, the two legs of each pair being connected by a web 36. The frame and its supporting structure should be sufficiently substantial to' prevent undue vibration when the machine is'run at a high speed.

The driving mechanism:

' shaft itself, as hereinafter set forth in demazes?- may be connected to a-suitable source of power by a belt. Oil'cups 4.5 are arranged on the bearings 41 for purposes of lubrication. The reciprocating punches may be driven by the crank arm 46 of the shaft and various other co-ord'inatemechanisms may be actuated in various ways from the tail. p

The (lies and punches. Crosswisethe machine, with their longitudinal axes in alignment, are arranged two die-plates 50 and 51, and above, mounted for co-operation therewith, are two reciproeating punches 52 and 53. The die-plates maybe supported upon the frame of the machine in any suitable manner as by a plate 54 and a block 55, preferably of hardened steel, plates 56 and 57 of different thickness being interposed between the block and the die-plates 50 and 51 respectively in order 1 to mount the two die-plates at different levels.-

The die-plate 50, which may-be termed the body die-plate, since that strip of material from which the body portion of the corner is made is fed over it, is' provided with a longitudinal cutout guideway 58 (Fig. 9) through which the body strip is fed and the forward end of the plate is centrally squared at 59 and provided with oblique corner faces 60 at angles of forty-five degrees to its axes,

so that when the finished corner is severed, the end of thebody strip is left in suitable shape for the formation of the next corner.

A? top-plate 62 (Fig. 15) vmay be fastened on the body die-plate by screws 63 which serve also to secure the die-plate in position. At its forward end the top-plate is cut off to expose the forward angular end of .the

. die plate and is provided centrally with a suitable opening 64 to give access to the paper strip within the guideway in case of breakage. may be both provided with a central longitudinal open recess 65 which bifurcates their rear ends to permit the feeding device to be placed in close relation thereto.

The cap die-plate 51 is of general rectangular form and on the under face of its forward end is provided with a recess (Fig. 11) adapted to receive the corner as it is fed forward to' receive the cap, the

back wall of said recess serving as a stop to position the body portion of the corner. On its top face, the plate 51 is cut out from side to side at 71 to permit the cap strip to be fed laterally across it and a vertical right-angled through and through opening 72, the exact shape of the cap to be applied, is out vertically through the forward end of the plate 51. In order to secure a shearinggaction asthe punch cuts the cap in The die-plate and top-plate Y passing downwardly through said opening 5 72, the top face 73 is pitched from the center downwardly toward each side (see' Fig.

11). A. top-plate 74 may be secured to said die-plate 51 by screws 7 5, the die-plate itself being secured in position on the block 55 by screws 76; the top-plate serving to guide the cap strip over the cap-die and having end portions 76 forengaging the forward end of the said die. f An opening 77 maybe providedin the 'top-plate for-the passage,

of the cap punch.

The two punches 52 and 53 may be mounted ina plunger plate 80 in position plunger plate 80 and to be held therein by a set screw 82 threaded laterally through the said plate 80. A plate or flange portion 83 between the punch proper and the shank overlaps and abuts the under face of the plunger plate and thereby regulates the positioning of the punches therein. (Fig. 7.) The plunger plate may be made in any suitable form, but is shown (Fig. 3) as generally square in plan with the side portions cut away to reduce the weight and to'leave corner extensions 85, each bored to receive a bushing 86 which forms a bearing for a guide pin 84 set upright in the block 55. Between the bloek'55 and plate 80 a helical spring 87 may be mounted on each-pin to counter balance the weight of the plunger plate and thereby relieve the strain on the operating mechanism. For-imparting a reciprocating movement to said plunger plate, it is secured in any suitable manner such as by brackets 90 and screws 91 (Fig; 7 to the lower end of a plunger 92 which at its upper end is pivotally connected to a turnbuckle 93 (Figs. 1 and 2) which in turn is connected at its upper end to a split collar 94 mounted on the crank arm of the shaft 40 and provided with an oil cup 95 for lubrication. A yoke bearing cap 96 may be fastened by bolts 97 to intermediate projections 98 on the standards 30 whereby the plunger is guided ,inits reciprocation.

Edge turning mean .9.

, i In order to turn up two edges of the forward end of the body strip to form flanges inright angled relation to each other for receiving the pocket-forming cap which is thefirst operation in the making of a corner, the body die is provided with a tongue located above the body stri as it is fed through the dieand adapte to be pressed down into a suitable recess 101. igs. 9 and 10.) The recess is formed by countersinking the floor of the guideway 58 in its forward portion. The rear wall 102 of the recess is transverse the guideway, but the forward walls 103 and 104 are arranged at right angles to each other and at forty-five degree an les to the axes of the die-plate 50, the point of their junction being at the front face 59 of the die. The tongue 100 is preferably secured by rivets 105 to the under face of the top-plate 62 and therefore lies above the body strip fed through the guideway 58. The forward end of the tongue is right angled with the point 106 of the angle in the center corresponding in shape there-,

fore to the-shape of the recess 101 and the tongue is so locatedthat when it is depresesd into the recess there is just room enough between its forward edges 107 and 108 and the walls 103 and 104 of the recess to accommodate tightly the material used for the body portion of the corner. The edges 107 and.108 of the tongue may be thinned down to facilitate the wiping operation and a rec tangular opening 109 may be centrally disposed for registering with a similar opening in the top-plate.

For depressing the forward end of the tongue into the recess at the pro er times, any suitable means may be provide and one such is shown, comprising an arm 110 (see Figs. 7 and 15) pivotall mounted midway in a bracket 111 secured y the screws 63 on one side of the body die-plate and having its front end bent laterally and downwardly to engage the tongue at point 112 and its rear end provided with a laterally extending roll 113 adapted to engage a cam 114 mounted on the body stri feed shaft described hereinafter. The ront edge of the top-plate 62 may be provided with a semicircular recess 115 (Fig. 15) to afford the forward end of the arm 110 free access to the tongue and a spring'116 secured at one end to the rear end of the arm 110 and at its other end to the plate 54 holds the arm in engagement with the cam.

The wiping means.

a base-plate 123 fastened. to the block 55' by screws 124 and a top-plate125 held in by a spring 163 mounted in two place by screws 126, the top-plate being provided with a longitudinal groove or guideway in which the wiper slides (Figs. 5- and 6). The wiping ends are bent downwardly and then horizontally, the body ortions of the wipers being above the bod -die over which the wiping is done.

. The wiping action is accomplished by the longitudinal movement of the wipers, preferably actuated by the reciprocating movement of the plunger plate through the following means. Each top-plate 125 of the wiper casing is rovided with a longitudinal slot (Fig. 3i through which projects upwardly a lug 131 integral with the wiper 120 (Fig. 6), which lug connects by a bellcrank lever 132 and a link, 133 with the plunger plate, 80. The bell-crank lever 132 in each case is pivotally mounted on a fixed shaft 134 carried by a bracket or bearing 135 fixed on the'block 55 and the link 133 is pivotally mounted at its upper end on a shaft 136 held at its ends in straps 137 fas tened to the top face of the plunger plate by screws 138. The wipers are therefore moved laterally by the reciprocating movement of the plunger plate, being thrown inwardly to wipe on the upward movement of the punches and being retracted on the downward movement. To permit relative movement between the lug 131 and bellcrank lever 132 the lower arm thereof is provided with a slot 139, allowing the pivot pin 140 to move therein as the wipers are retracted. a

The body-strip feed.

For feeding the continuous strip of suitable material from which the body portion of the corner is made, intermittent feeding means maybe provided, one form of such means comprising a feed roll having a resilient cam 151 mounted thereon and adaptedto co-operate with an idler roll 152 for feeding the body strip forward the desired distance on each revolution of the feed roll. (Fig. 8.) On one side of the machine, the block 55 is cut out to permit the feeding mechanism to be placed in said recess and close to the rear end of the body die-plate 50. Within said recess are fixed two upright end-plates 154 having each a lateral extension 155 adapted to be fastened to the top face of the block 55 by a-bolt 156, (Fig. 5), and the said end-plates sup port the idler shaft 157 and the feed roll shaft 158, these two rolls being centrally positioned each on its respective shaft by collars 160. The feed-cam 151 is pivotally mounted near its forward end between two ears 161 on a pin 162 held by said ears, and the rear end of said cam is held outwardly o posite pockets in the feed roll and inner ace of the cam respectively. Since the cam is pivoted away from its forward end, the latter acts. as a stop tolimit the outward .movement of the rear-end of the cam under the surfaceon the idler roll are somewhat narrower than the width of thebody strip to be fed and the tworolls are so mounted as to feed the stri b engagement with it on .its central longltu mal axis. To avoid any buckling of the body [strip in' front of the feeding mechanism, the rear ends of the body nuts se.

die-plate and top-plate are each provided with the longitudinal recess 65 which permits the feed to be placed within the body die-plate where the lon itudinal edges of the body stri at either si e of thefeed is held against fo ding or buckling bet'ween the topplate and the die-plate.

The feeding mechanism may be operated preferably from the main shaft 40. The feed shaft' 158 is extended to one side through a ri 'ht-angled bearing bracket 170 mounted on te block and provided on its end with a spiral gear. 171 which meshes with a similar gear 172 (Fig. 5) on the end of a shaft 173 arranged at right angles to said feedin shaft along the adjacent side of the mac ine and slgiported in bearing brackets '174'and 175. shaft 173 carries a spiral gear 176 (Fig. 3) meshing with a similar gear 177 on the lower end of a shaft 178 (Fig. 1) arranged in approximately vertical position and carrying on its upper end a spiral gear 179 which meshes with a similar gear 180 (Fig. 2) fixed on the main shaft '40 whereby the feeding shaft is rotated one complete revolution for each revolution of the main shaft.

A bearingbracket 182-may be fastened by bolts 183 to the plate 54; to give additional support to the end of the shaft.173 and the shaft 178 may be sup orted on one of the standards 30 by suita l) 185. Wherever'n'eeded to take up the lon itudinal thrust, ball bearings; 186 may e arranged on the shafts 158, 173 and 178 and the spiral gears ma be held on their respective shafts byysuita 1e washers 188 and The flange holding means.

For the purpose of holding down the turned over flanges of the-body portion while it is being fed forward into cap receiving position and until just before the cap is applied, a pair of movable wire fingers may be provided with means for moving them into and out of operative position at the exact times required. The two fingers 192 t its other end, the 1 le bearing brackets the machine in any suitable manner to may be slideably mounted in two bores, circular in crossection running longitudinally the cap die-p ate, said bores being formedby cutting opposite semicircular grooves in the engaging faces of the cap die-plate 51 and supporting plate .57 11) so that each bone is located half in the die-plate and half in the under plate. The rear ends of the fingers may be turned upwardly at right angles and anchored by pins 193 in an upright block 194 on the top face of die-plate 51 and vertical .slots 195 in said die-plate may be provided topermit the block and wires to be moved longitudinally the dieplate (Fig. 13). The forward end of each 8 finger IS HIIClGI'CIIt (Fig. 14) to form a sharp point which is uppermost so that when the bodystrip is fed forward it slides under the rightblock 194. The withdrawal of the an 05 gers 192 from the turned overflanges to per mit the cap to'be applied thereto may be accomplished by means of a hook-shaped cam 203 depending from .the plunger plate which engages the bevelledtop edge of the upright finger carrying block 194 and pushes it rearwardly against the pressure of the spring 198. By mounting the retracting means upon the plunger plate the withdrawal of the fingers may beitimed to such 1 a nicety in relation to the application of the cap by the cap punch that the flanges do not have time to resume their natural form and turn upwardly between the withdrawal and the appli.cation.- When the plunger plate moves upwardly, the spring 198 forces the block 194 and fingers 192 back to normal position.

Gap atnp feed. "5

fabric actuated by feed rolls maybe provided, "the belt also serving as a delivery means for the completed corners, The endless belt 210 may be arrangeddin eliver the cap strip through the cap die and to carry the completed corners to the delivery endofthe machine. It travels from the rearto the front or delivery end of .the machine (Fig. 1) passing under the adjacent or forward ends of the two die-plates then between two feed-rolls 241 and 212 at the delivery end, over a delivery shelf and back under the machine over rolls 213, 214, and 215. Any suitable means may be provided for guiding the belt to prevent its shifting laterally as it enters the machine such as two collars 217' mounted on a pin 218 fixed in one of the standards 30; the collars being held in adjusted position on either-side of the belt by set screws 220 which are purposely elongated to facilitate manipulation. To keep the belt taut a spring tension device 221 carrying a roll 222 on its upper end may be provided. The movement of the belt through the machine is produced by the two co-operating feed-rolls 211 and '212, the former of which is driven and the latter of which is an idler and is yieldable in. relation to the former. The two feed rolls.211 and 212 are fixed respectively on shafts 213 and 214 which are mounted in collar bearings 215-carried by end plates 216 and 217 respectively. The plates 216 may be supported on a table 218 secured to the under face of the block 55 (Fig. 6) and may be held thereon in upright position by screws 220. The end plates 217 are each loosely mounted above a plate 216 on two screws 221 threaded into the upper part of the said plate 216 and the weight 'of the roll 212 and its end plates normally causes the roll to-engage the under roll 211. (Fig. 5.) In order to hold said upper roll or idler, however, in feeding engagement with the lower roll, while permitting it to yield for varyingthickness'es of stock, the

two screws 221 in each end plate are connected together at their tops by a plate 223 held thereon by nuts 224 and set nuts 225 and a spring 226 bearing at its upper end against the. plate 223 is inserted under compression in a pocket in the top .of the end plate 217, The downward pressure exerted by the two springs 226 may be regulated by I adjustment up or down of the two connecting plates 223. In case the cap applied to the corner is embossed, then the idler roll 212 should have a cut away portion or re-v duced diameter 230 to allow the embossed portion of the corner to pass between said rolls to the delivery table without being subjected to a pressure which would tend to flatten the embossing and obliterate it. (Figs. 3 and 23).

As shown, the feed rolls are actuated in a step-by-step manner from the main shaft. The shaft 213 of the lower roll may be extended on one side. being supported at its end by a bracket 232 secured to the plate 54 by a bolt 233, and may have fixed thereto a ratchet wheel 234 adapted to be operated, to turn said shaft, by a dog 235 carry-ing a pawl 236 and being loosely mounted on said shaft: The dog is pivotally connected to the lower end of a rod. 238 which at its upper end is pivotally connected to a crank-disk 239 fixed on the end of the main shaft. In

order to make possible an adjustment of the length of feeding movement, the rod 238 may be connected to the crank-disk in such a way that the elfective throw of the rod.

due to the rotation of the crank-disk may be varied by changing the point of pivotal connection. For this reason the crank-disk may be provided with a diametrical slot 240 undercut to receive the head of a pivot pin- Moistening ale vice for-cap strip.

Any suitable means may be employed for moistening the cap strip to effect adhesion between the perforated cap and the adhesive coated flanges to which it is applied and one form is shown (Fig. 1) comprising a small water receptacle 250 secured to a bracket 251 fastened in turn to the table 34 and a roll 252 mount'ed therein for transferring moisture from the water in the receptacle to the cap strip fedover said roll in engagement therewith. To insure contact between the cap-strip 255 and the roll 252 any suitable tension means may be provided, such as a small weight 256 loosely mounted on pins 257 fixed on a bracket 258 at the entrance to the water receptacle and a fixed spring finger 260 at the exit. In leaving the water receptacle the strip passes over the upper edge 261 of the exit endthereof and a transverse finger 262 may be arranged within the receptacle above the water level but sufliciently low to hold the cap-strip down upon the roll 252 and in'engagement with the edge 261 so that the surplus moisture nay be removed from the strip and run back into the receptacle.

Impression table.

moved downwardly by the cap punch to a bumper where the final pressure is applied.

The table 270 may be supported on two upright pins 272 which are movably mounted in suitable bores in the'plate 54 and block 55 (Fig, 6) and pivotally connected at their lower ends to a yoke 273 which may be provided midway with lateral upturned ears 274 whereby it is in turnpivotally connected.

by pins 275 to two brackets 276 fixed to the under side of the plate 54. (Figs. 7 and 12.) The rear end of the yoke 273 may be pivotally connected by a pm 277 to the lower end of a frame 278 made u of two plates connected at their uplper en s by a pin 279 carrying a roll 280. or controlling the position of the table; a cam 281 is fixed on a shaft 282 arried by brackets 283 secured to the bloc 55 by screws 284, which cam engages the roll 280 and thereby reciprocates the frame 278 and table 270 through the medium of the yoke 273. The plates of the frame may be slotted at 285 to permit this movement of the frame in relation to the shaft 282. For operating the cam 281, theshaft 282 is extended on one side (Fi 3) and provided with a spiral gear 287 mes ing with a similar gear 290 on a shaft 173, the end of shaft 282 being supported in an upright bracket 291. To hold the table 270 'in an uppermost position except when lowe'red by *the operation of the cam, springs 293- bearing at their upper ends against the under side of the table at each end may beplaced in suitable pockets formed in the top of the block 55. (Fig. 6.)

'- Bumper mechanism.

To receive the final pressure of the cap punch a bumper mechanism may be provided consisting of an inverted cup-shaped cap 300 mounted on a circular block-301 fixed on the upper end of a large screw 302 threaded through the plate 54', the block 55 being cutout at 303 to receive the bumper. The cap should fit the block 301 sufficiently closely to avoid any tilting action on its part when subjected to the pressure of the punch, but the block may have a plurality of vertical grooves 304 out in itsperiphery to facilitate the removal of the cap there from when necessary. To secure a certain amount ofv resiliency in the bumper and thereby avoid shock and wear upon-the cap punch in the rapid operation of the machine, a disk cushion 305 (Fig. 22) may be interposed between the two, which cushion may be made in any suitable manner. Preferably it is'made up of a layer of rubber or rubber composition between two layers of fabric anda lurality of circular openings or holes may be punched through the cushion at variouspomts to render it more compressible.

The bumper may be vertically adjusted by turning the screw 302 in one direction or the other through the plate 54, the head 307 of' the screw being pierced by a handle bar 308 (Fig. 7). A block 310 secured on 'the under face of the plate 54 by a rivet 31] increases thebearin surface for the screw. A set screw 314 having a head 315 and handle bar 316 is threaded on the screw 302 in order to hold it, the bumper-screw, in adjustedpositi'on. Since the stroke of the cap punch is constant the amount of pressure to which the cap portionof the corner is subjected on the. completion of the corner is regulated by vertical adjustment of the bumper mechanism.

Rewinding mechanism.

Since the caps are punched out of the cap ets 321 fastened to the frame of the machine or by the bolts 97 used to secure the plunger cap in position and the reel may be frictionally turned by a belt 322 running over a groove 323 in the hub of the wheel 43 on the main shaft.

I Operation of the machine.

7 In Fig. 23 is shown thecorner which the machine is adapted to turn out; the cap and the body ortion of the corner being separated to illustrate more clearly the exact construction. In that view 330 designates the body. portion of the corner, 331 the turned over corner edges or flanges with the adhesive coated sides uppermost in position to receive the cap 332 which is shown with an .embossed design. The rear edge of the corner is of such form that the body strip is left in proper condition for the formation of the next corner.

In the use of the machine for making corners two continuous strips of suitable material such as paper are fedin'to the ma chine, the cap strip 255 from a roll 340 at the rear of the machine, and a body strip 341 from a roll 342 on one side of the ma chine. The body strip is of the exact width of the corner desired so that: there'is no waste audit is coated with a suitable adhesive on its bottom side. It may be of thinner material than the cap strip which should be sufliciently heavy to make a strong corner-receiving pocket and to retain any design which may be embossed thereon by the ca punch. The body strip 341 passes from t e roll 342 through a suitable tension device consisting of small weight plates 346 loosely supported on a bracket 348 secured to the plate 54, thence between the feed-roll 150 and idler roll 152, and through -the guideway '58 in the body-die. The cap str p 255 passes from. the roll 340 through the moistening device, through the cap-die and finally between the feed-rolls 211 and 212 to the rewinding reel.

The machine .isdesigned to. operate c011- tinuously and at a speed of from two hundred and fifty to four hundred revolutions a minute, turning out a complete corner sure is applied.

mount on each revolution. On the upward stroke of the plunger plate and punches after a completed corner is severed from the body strip leaving its forward end in shape for the next corner, thefinger 110 is operated by the cam-roll 114 to depress the tongue 100 to press the forward end of the body strip into the recess 101 and to turn up the corner edges in right-angled relation to each other. This operation may be timed to take place just after the severing of the" I plunger plate, the Wipers are refracted, the

depressing finger raised and the tongue released whereupon the feed-roll 150 is timed to feed the body strip forward under the adjacent end of the cap-die and under the flange or edge-holding wire fingers 192. These fingers continue to hold down the turned over edges of the corner until just before the cap is applied,.when they are suddenly retracted by means of the block 194 and cam 203, this operation being so timed that the cap is applied before the flanges.

have time to turn upwardly when released.

from the fingers 192. Meanwhile, the cappunch has perforated a right-angled cap from the cap strip carried it downwardly through the opening 72 and applied it to the turned over flanges on the body portion carrying the corner, which is severed from the body strip at the same time by the other punch 52, belt 210 and table 27 0 downwardly to the bumper cap 300 where the final pres- The cap strip and belt are fed forward one step just after the cap punch has on its upward movement passed out of the cap die,

this feeding movement causing the cap strip to present a .new surface to the cap punch on its next downward trip and the belt-to move the completed corner one step toward the delivery end of the machine. There the belt passes over the edge of a table 360 where the corners are stripped from the belt and slide down an inclined shelf 362 connected by hinges 364 to thetable 360 and adjustably supported by a bar 366 so that the finished corners may be delivered into a suitable receptaclo.

It will be observedthat in making a product ofthe small size of cornermounts from;

paper or other suitablematerial at the necessary speed, extreme accuracy of construction and operation and exactness in timing the various parts .of the machine is required. My machine isso constructed that it maybe operated at a com aratively high speed for machines of this off duce a productvwhich is uniform in quality. It is to be understood that the foregoing is merely an illustrative embodiment. of my invention and that it may be exemplified by other forms of construction all within the purview of the following claims.

What I claim is': 1. In a machine for making corner, mounts, the combination of means for feeding in a step-by-step manner a continuous strip of material coated with adhesive on one side, means for turning over upon the body poraracter and yet will protion of said strip two edges in right-angled relation to each other and reciprocating means for perforating and applying a cap to said turned over edges and for cutting off said corner from said strip.

2. In a machine for making corner mounts, the-combination of means for feeding in a step-by-step manner a continuous strip of material suitable to form the body portion of the mount, said strip being coated with adhesive on one side, means for turning over upon said body portion two flanges in rightangled relation to each other and means for applying to said flanges a right-angled cap for forming a corner receiving pocket.

3. In a machine for makin corner mounts, the combination of means for feeding in a step-by-step manner a continuous adhesive coated strip of material suitable to form the body portion of the mount, means for turning over two edges of the forward end of said strip to form two flanges in contiguous and right-angled relation to each other and means for applying to said flanges a cap to form a corner receiving pocket.

4. In a machine for making corner mounts, the combination of.means for feeding in a step-by-step manner a continuous adhesive coated strip of material suitable to form the body portion of the mount,- means for turning two edges of the forward end of said strip over upon the uncoated side of said strip to form two flanges in contiguous right-angled relation to each other, means for applying to said flangesa cap to form a corner receiving pocket and means for severing the completed corner from said endless strip.

5. In a machine for making closed corner mounts, the combination of means for intermittently feeding a continuous strip of material forming the body portion of the corner, means for turning Tip the forwardl edges of said strip on. the body portion to form flanges adapted to receive .a cap and means for adhesively applying to said turned over flanges a right-angled cap in Full from said strip leaving the end of said strip shaped for the next corner.

6. In a machine for making corner mounts,

the combination of means for feeding in a step-by-step manner a continuous strip of material suitable to form the body portion of the mount, said strip being coated with adhesive on its bottom side, means for turning two edges of theforward end of said strip over upon the uncoated side of said strip to form two flanges, in contiguous right-angled relation to each other, means for applying to said flanges a moistened cap to forma corner receiving pocket and means for severing the completed corner from said endless strip in such manner as to leave the forward end of said strip shaped for the making of the next corner.

7. In a machine for making corner mounts,

the combination of means for feeding in a step-by-step manner a continuous adhesive coated strip of material suitable to form the body portion of the mount, means forturning two edges of the forward end of said strip into an upright position, means for wiping over said turned up edges toward the body portion of said strip into contiguous right-angled relation to each other, and. means for applying to said wiped over edges a cap to form a corner receiving pocket.

8. In a machine for making corner mounts, the combination of means for intermittently feeding a continuous strip of adhesive coated material for the body portion of the corner, said strip having the corners of its forward end cut diagonally, means for turning up the diagonal edges of the forward end of said strip to form flanges at right angles to each other, means for wiping said flanges over upon the body portion of said strip and means for applying a moistened cap to the adhesive coated sides of said flanges to form with said flanges a corner receiving pocket.

9. In a machine for making corner mounts, the combination of means for intermitlently feeding a continuous strip of adhesive coated material for the body portion of the corner, means for turning up two edges of the forward end of said strip to form two flanges in contiguous right- I angled relation, means for wiping said flanges over toward the body portion of said strip, means for holding said flanges down upon said body portion while said strip is being fedforward and means for applyinga cap to said flanges to form a corner receiving pocket. y

10. In a machine for making corner mounts, the combination of means for intermittently feeding a continuous strip of adhesive 'coated' material; fol-the body portion of the corner, means for turning-up two edges of theforward end of said strip to form two flanges in contiguous rightangled relation, means for wiping said flanges over toward the body portion of said strip, means for holding said flanges down upon said body portion while said strip is being fed forward, said means being withdrawn just before the cap is applied,

means for applying a moistened cap to said flanges to form a corner receiving pocket and means for severing said completed corners from said continuous strip.

'11. In a "machine for making corner mounts, the combination of means for feeding a continuous strip of adhesive coated material, meansfor turning over two edges of said strip into a contiguous right-angled relation to each other and means for applying a cap to said turned over edges to form a ,corner receivingpocket.

12. In a machine formaking corner mounts, the combination of means for feeding a continuous strip of adhesive coated material, means for turning over upon the body portion of said striptwo edges thereof into a contiguous rightangled relation to each other and a reciprocating punch for applying a' cap to said turned over edges to form a corner receiving pocket.

13. In a machine. for 7 making corner mounts, the combination of means for feeding two continuous strips of material, one of said strips being adhesive coated, means for turning over upon the body portion of said adhesive coated strip two edges thereof into a contiguous right-angled relation to each other and means for perforating a cap from the other of said two strips and for applying it to said turned over edgesito form a corner receiving pocket.

14. In a machine for making corner mounts, the combination of means for feeding two continuous strips of paper, one of said strips being coated with adhesive, means for turning over two edges of said coated strip upon its uncoated side into a contiguous right-angled relation with each other, a punch for perforating a cap from the uncoated strip and for applying it to said turned over edges to form a corner receiving pocket and means for severing said completed corner from said coated strip.

15. In a machine for making corner mounts, the combination of means for feeding two continuous strips of paper, one of said strips being coated with adhesive on its bottom side and the other of said strips being moistened, means for turning two edges of said coated 'strip over upon its uncoated side in a contiguous right-angled relation to each other and means for cutting a cap from said moistened strip and applying it to said turned over edges to form a corner receiving pocket.

'16.-In a machine for making corner mounts, the combination of means for feed.

ing. in a step-by-step manner two continuous strips of paper, one being coated with adhesive on its bottom side and the other being moistened, means for turning up two edges of said coated strip, means for wiping said turned up edges down upon the uncoated side of said strip into contiguous right-angled relation to each other and vertically reciprocating punches for cutting out a right-angled cap from said moistened strip and applying it to said wiped edges to form a corner receiving pocket and for severing said completed corner from said coated strip.

17. In a machine for making corner mounts, the combination of means for feeding in a step-by-step manner two continuous strips of paper, one being coated with adhesive on one side to form the body portion of the corner and the other strip being adapted to supply the corner cap and being moistened, means for turning over two edges of the forward end of said coated strip to form two flanges in contiguous right-angled relation to each other, means for punching out from said moistened strip-a right-angled cap and for applying it by pressure to said turned over flanges to form a corner receiving pocket on the uncoated side of said coated strip, and means for severing said completed corner from said strip leaving the end of said strip shaped for the formingof the next succeeding mount.

18. In a machine for making corner mounts, the combination of means for feeding a bottom adhesive coated continuous strip of paper for the body portion of said mount, the forward end of the said strip having its corners cut on an angle of fortyfive degrees to the axis of said strip, means for turning up the forward cut corner edges of said strip to form two flanges in contiguous right-angled relation to each other, means for wiping said flanges over upon the body portion of said strip, means for feeding a moistened continuous strip of paper at right angles to the said first-mentioned strip, means for cutting a corner cap from said second strip of paper and applying it by pressure to the turned over flanges on the end of said first strip in order to complete a corner receiving pocket, said means being provided with means for severing the completed corner from said first-mentioned strip leaving the end thereof in a form suitable for the formation of the next succeeding corner.

19. In a machine for making corner mounts, the combination of means for feeding in a step-by-step manner two continuous strips of paper in paths at right angles to each other, one of said strips being adapted for the body portion of said corner and being coated on its bottom side and the other of said strips being adapted to supply the pocket cap and being moistened, a die-plate having a recess, means for pressing the end of said body strip into the recess in said dieplate to turn up the edges on said body strip,

one of said strips being adhesive coated on its, bottom side for forming the body portion of the corner and the other of said strips being moistened to furnish the pocket-forming cap for the corner, the combination of abody die having a shallow recess with its forward walls right angled, means for pressing the end of the adhesive coated strip into said recess to turn up two flanges in right-angled relation to each other, means for wiping said flanges toward the body portion of said strip, a cap die, means for feeding the saiducoated strip forward toward said cap die the length of one corner, after said flanges have been wiped down, means for holding said flanges down during said feeding movement, means for feeding in a step-by-step manner the said moistened strip over said cap die, a punch plate, means for reciprocating said punch plate flatwise, two punches carried by said punch plate, one of said punches being adapted by co-operation with said cap die to perforate a rightangled cap from said moistened strip and to apply it by pressure to said turned over flanges to form a corner-receiving pocket therewith and the other being adapted by co-operation with said body die to sever the completed corner from said coated strip leaving the end thereof in proper shape for the formation of the next succeeding corner.

21. In a machine for making corner mounts from two continuous strips of mate rial, one of said strips being a body strip and the'other a cap strip, the combination of a body die and a cap die with their longitudinal axes in alignment, said body die having a guideway to receive the body strip, means on said die for turning up two edges of said body strip to form two flanges in right-angled relation to each other, means for wiping said flanges down toward the body portion of said strip, means for feeding said body strip forwardly under said cap die, means co-operating with said cap die for perforating a right-angled cap from said cap strip and applying it to said turned over flanges on said body strip to form a corner-receiving pocket, and means for cooperating with said body die for severing said completed corner from said body strip,

leaving its forward end in shape forthe formation of the next succeeding corner;

22. In a machine for making corner mounts, the combination of a body die and a cap die in axial alignment, means for feeding over said body die in a step-by-step manner a'continuous adhesive coated body strip of paper, means for feeding in a step-by-step manner a continuous moistened cap strip over said cap die, means on said body die for turning up in right-angled relation to each other two edges on the forward end of said body strip, a pair of wipers arranged one on each side of said body die for wiping said turned-up edges towardthe body portion of said strip, a plunger plate, arran ed to reciprocate flatwise and provided Wit means for operating said wipers, two punches carried by said plate, one co-operating with said cap die for perforating a cap from said moistened strip and for applying it to said wiped edges on said body strip to form a corner receiving-pocket thereon, and the other co-operating with said body die for severing the completed corner from said body strip.

23. In a machine for making corner mounts, the combination of a body die and a cap die in axial alignment, means for feeding a continuous adhesive coated body strip of paper in a step-by-step manner over said body die, means for feeding in a step-byslop manner a continuous moistened cap strip over said cap die, means for turning up in right-angled relation to each other two edges on the forward end of said body strip, including a depressible tongue and means for wperating said tongue, a pair of wipers for wiping said turned-up edges toward the body portion of said strip and over the forward edges of said tongue, means for holding down said wiped over edges as said strip is fed forward into a cap-applying position, and two reciprocating punches, one co-operating with said .cap die for perforating a cap from said moistened strip and applying it to said wiped edges on said body strip to form a corner-receiving pocket thereon, and the other co-operating with said body die for severing the completed corner from said body strip. 1

24. In a machine for making corner mounts, the combination of means for feeding in a step-by-step manner a continuous strip of material coated with adhesive on one side, means for turning up two edges upon the forward end of said strip toform two flanges in right-angled relation to each other, a pair of wipers for wipin the turned-up flanges toward the body portion of said strip, means for feeding a cap strip in a step-bystep manner at right angles to said body portion, means for mbistening said cap strip, a pair of vertically reciprocating punches, one co-operating with said cap die to perforate from said cap strip a right-angled cap and to apply the same to said flanges to form a corner-receiving pocket and the other co operating'with said body die to sever said finished corner from'said continuous body strip, and a resilient support for receiving the cap-applying pressure of the cap-punch.

25. In a machine for making corner mounts, the combination of a body die and a cap die, two vertically reciprocating punches, one co-operating with said body-die to sever the finished corner, and the other co-operating with said capsdie to perforate and apply a cap, means for feeding a continuous strip of material over said body die in a step-bystep manner, each step being the length of a corner, means for turning up two edges of the forward end of said strip to form flanges in right-angled relation to each other, means for wiping said flanges over toward the body portion of said strip, means for holding down said flanges while said strip is being fed forwardly and until just before said cap is applied, means for applying a cap to said flanges, and means for delivering said finished corners at the delivery end of said machine.

26. In a machine for making corner mounts, the combination of a body die and a cap die in axial alignment, means on said body die for turning up two edges on the forward end of a continuous adhesive-coated body strip of material, said edges being in right-angled relation to each other, means for wiping said turned-up edges toward the body portion of said strip, means for feeding said strip to and under said cap die, means for feeding in a step-by-step manner a continuous moistened cap strip over said cap die, two reciprocating punches, one co-operating with said cap die for perforating a cap from said moistened strip and for applying it to said wiped edges on said body strip to form a corner-receiving pocket thereon, and the other co-operating with said body die for severing said corner from said body strip, and an endless beltfor delivering the finished corners to the delivery end of the machine.

27. In a machine for making corner mounts, the combination of a body die and a cap-die in axial alignment, said bod die being provided with a recessed gui eway and a depressible member, means for depressing said depressible member into said recess to form two upright edge flanges on the forward end of a continuous strip of paper fed through said guideway, a pair of wipers for wiping said edge flanges toward the body portion of said strip, means for feeding said strip forward the length of a corner mount and under said cap die, means for holding down said turned over flanges until just before the cap is applied, means for feeding a cap strip over said cap die,

- over flanges and for severing the corner.

28. In a machine for making corner mounts, the combination of a body die provided with a longitudinal guideway for receiving a continuous body strip. of-paper, said guideway being recessed at its forward end, a tongue mounted above said guideway, means for depressing said tongue into said recess to turn up two edges of the forward end of said body strip, means for wiping said turned-up edges toward the body portion of said strip, a cap die provided with a right-angled through and through opening,

means for feeding said body strip forward the length of one corner and under said cap die, means for feeding in a step-by-step manner a cap strip over said capdie, means cooperating with said cap die for perforating a cap from said cap strip and applying it to said turned-over edges on said body strip to form a corner-receiving pocket thereon, means for severing said corner mount from said body strip and means for delivering said corner mount at the delivery end of said machine.

29. In a machine for making corner mounts, the combination of a body die having a longitudinal guideway recessed at its forward end, said recess having at its forward end two walls at right angles to each other and at angles of forty-five degrees with the longitudinal axis of said die, a spring tongue mounted above said guideway and having its forward end shaped to correspond with the forward end of said recess, means for depressing the forward end of said tongue in said recess, a pair of wipers arranged one on each side of said body die, means for reciprocating said wipers toward each other and over the forward ends of said die and said tongue when in said recess, strip feeding means, a cap die provided with a right-angled through and through opening, means for feeding a cap strip over said -cap die in a step-.by-step manner and a pair of reciprocating punches adapted to cooperate with said body 'die and said cap die respectively.

30. In a machine for making corner mounts, the combination of a body die provided with a recess, means for pressing the forward end of a continuous strip of adhesive coated paper suitable for the body portion of said corner into said recess to 'turn up two edges thereon in right-angled relation to each other,means' for wiping said turned-up edges downwardly toward the body portion of said strip, a cap die in axial alignment with said body die, and having a right-angled through and through opening, means for feeding said body strip from said body die to said cap die, means for feeding a moistened cap strip over said cap die, retractable means for holding down said turned-down edges on said body strip, a reciprocating plunger plate, said plate being provided with means for operating said wipers and for retracting said holding means, a pair of punches mounted on said plate, one of said punches co-operating with said cap die to perforate a cap from said cap strip and to press it onto said turned-down edges on said body strip to form a corner-receiving pocket and the other of said punches cooperating with said body die to sever said corner from said body strip, a resilient support to receive said cap-applying pressure and an endless belt for conveying said finished and severed corner to the delivery end of the machine.

31. In a machine for making corner mounts, the combination of means for feeding material suitable to form the body portion of the mount, means for turning over upon said body portion two edges thereof in right angled relation to each other and means for applying to said edges a rightangled cap for forming a corner receiving pocket.

32. In a machine for making corner mounts, thecombination of means for feedmg a strip of material suitable for the body portion of the mount, means for turning over upon said body portion two edges thereof in right-angled relation to each other, means for applying to said edges a rightangled cap for forming a corner receiving pocket and means for delivering said corner.

33. In a machine for making corner mounts, the combination of means for feeding material suitable for the body portion of sa1d mount, means for turning over upon said body portion two edges thereof in right-angled relation to each other, means for applying to said edges a right-angled cap for forming a corner receiving pocket and a movable member for conveying said corner to the delivery end of said machine and for delivering it.

34:- In a machine for making corner mounts, the combination of means for feedlng material suitable for the body portion of sa d mount, means for turning over upon said body portion two edges thereof in rightangled relation to each other, means for applying to said edges a right-angled cap v for forming a corner receiving pocket and an endless belt for delivering said corner at the delivery end of said machine.

35. In a machine for making corner mounts, the combination of means for feed ing in a step-by-step manner, material suitable for the body portion of said mount, each feeding step being the length of one corner, means for turning over upon said body portion two edges thereof in rightangled relation to each other and means for applying to said edges a right-angled cap for forming a corner receiving pocket.

36. In a machine for making corner mounts, the combination of means for feeding an adhesive coated strip. of material suitable to form the body portion of the corner, means for turning over upon said body portion a portion thereof with its coated side exposed and means for applying a moistened cap to said turned over portion to form a corner receiving pocket.

, 37. In a machine for making corner mounts, the combination of means for feeding a strip of suitable material coated with an adhesive on one side, means for turning over an edge portion of said strip with the coatedside exposedand means for applying by pressure a moistened cap to said turned over portion to form a corner .receiving pocket.

38. In a machine for making corner mounts, the combination of means for feed ing suitable material coated on one side with adhesive, means for turning over edge portions of said material with the coated side exposed and means for applying a piece of moistened material to the coated sides of said edge portions to form a corner receiving pocket.

39. In a machine for making corner mounts, the combination of means for feeding material coated on one side with adhesive, means for turning over edge portions of said material with the coated side exposed, means for applying apiece of moistened material to the coated sides of said edge portions to form a corner receiving pocket and means for securing,said com"- pleted corner from said coated material.

40. In a machine 'for making corner mounts, thecombination of means for feeding material coated on one side with ad'- hesive, means for turning over edge portions of said material with the coated side exposed and means for applying a piece of moistened uncoated material to the coated sides of said edge portions to form a corner receiving pocket; said applyingmeans being adapted to form interlocking ridges and depressions in said pocket portion for gripping the corner of the card or other object inserted therein.

41. In a machine for making corner mounts, the combination with feeding means comprising a feed roll and an idler roll, said feed roll being provided with a resilient peripheral cam for cooperating with said idler roll for feeding a continuous strip of material in a step-by-step manner, of means for turning over two edges of said strip into a contiguous right-angled relation to each other and means for applying a cap to said edges to form a corner receiving pocket.

42. In a machine for making corner mounts, the combination of means for feeding material coated with adhesive on one side, means for turning over edge portions of said material with the coated sides exposed, means for feeding a moistened strip of material and reciprocating means for punching a cap from said moistened strip and for pressing it onto said turned over edges to form a corner receiving pocket.

43. In a machine for making corner mounts, the combination of means for feeding a strip of material, coated with adhesive on one side, means for turning over edge portions of said material with the coated sides exposed and means for pressing a cap of moistened material to the coated sides of said turned over edge portions including a resilient support for the work and to receive the pressure of the cap applying means.

' 44. .In a machine for making corner mounts, the combination of means for feeding a strip of material coated. with'adhesive and suitable for the body portion of the of said material with t e coated sides exposed, means for pressing a cap of moistened material to the coated sides of. said turned over edge portions to form a corner receiving pocket and a support for holding said material while said pressure is applied; said support being mounted to yield slightly on the pressing operation and being adjustable inthe direction in which the pressure is applied. a

45. In a machine for making corner mounts, the combination of means for feeding in a step-by-step mannera strip of material suitable for the body portion of said corners, a die-plate over which said strip is fed, said die-plate being provided with a recess, a tongue member mounted at oneend above said die-plate and having its free end adapted to fit said recess in said dieplate when depressed, means for depressing said tongue member into the recess in said die-plate to turn up edge ortions on the end of said strip, means for wiping said turned up edge portions down upon said tongue and means for applying a cap to said turned down edges to form a corner receiving pocket.

46. In a machine for making corner mounts, the combination of a die-plate provided with a shallow recess, a tongue member fixed at one end above said die-plate and having its free end adapted when depressed to fit loosely said recess, means for feeding material between said die-plate and said tongue member in an intermittent manner, means for depressing said tongue member into said recess to turn up edge portions on the forward end of said strip between the feeding movements,; means for wiping said turned up portions over upon said tongue member and means for applying a cap thereto to form a corner receiving pocket.

47. In a machine for making corner mounts, the combination of a die-plate provided with a shallow recess, a spring tongue member mounted at one end above said die- .plate in position to have its free end depressed into the recess in said plate, means for feeding a continuous strip of material between said die-plate and said tongue member in a step-by-step manner and means for depressing said tongue member between the feeding movements to force the end of said strip into said recess and to turn up edge portions thereof and means for applying a cap to said turned up edge portions to form a corner receiving pocket.

48. In a machine for making corner mounts, the combination of a recessed dieplate, a spring tongue member mounted at one end above said die-plate in position to have its free end bent into the said recess, means for feeding a continuous strip of material between said die-plate and said tongue member and means for bending the end of said tongue member into said recess to turn up edge portions on said strip adapted for receiving a cap. x

49. In a machine for making corner mounts, the combination of a die-plate having a shallow recess, a spring tongue member adjacent said die-plate, means for feeding a strip of material between said die-plate r and said spring tongue in a step by-step manner and means for forcing said tongue and said strip into said recess to turn up edge portions on said strip to receive a cap.

50. In a machine for making corner mounts, the combination of a fixed member having a shallow recess, a spring member adjacent to but normally out of enga ement with said fixed member, means for ceding a strip of material coated on one side between said two members in a step-by-step manner and means for forcing said spring member and said strip into said recess to turn up edge'portions on said strip with the coated side exposed; said forcing means being operated between the feeding movements.

51. In a machine for making corner mounts, the combination with a die-plate provided with a shallow recess in its top face, a spring member mountedat one end above said die and having its free end shaped to fit said recess when said free end is depressed, means for feeding a strip of paper in a step-by-step manner between said die-plate and said tongue member, an arm pivotally mounted above said tongue member having one end adapted to engage the forward end of said tongue member, cam-operated means for oscillating said arm to press said tongue member into the recess in said die-plate between the feeding movements to turn up edge portions of said strip of material and means for applying a cap to said edge portions to form a corner'receiving pocket.

52. In a machine for making corner mounts, the combination of means for turning over edge portions on the end of a continuous'strip of material having an adhesive coating on its under side, means for feeding said strip-forward one step after said edge portions are turned over upon the body portion of said strip and means for applying a cap of moistened material to said edge portions to form a corner receiving pocket.

53. In a machine for making corner mounts, the combination of means for turning over edge portions on the end of a continuous strip of material having an adhesive coating on one side, means for feeding said strip forward one step, means for holding down said turned over edge portions as said strip is fed forward, and a punch plate for applying a moistened cap to said edge portions to form a corner receiving pocket; said punch plate being provided with means for moving said edge .holding means out of the way on its downward stroke.

54. In a machine for making corner mounts, the combination of means for turn ing over edge. portions on the end of a continuous strip of material having an adhesive coating on its under side, means for feeding said strip forward one step after said edge portions are turned over upon the body portion of said strip, means for holding down said turned over edge portions as said strip is fed forward and means for applying a cap of moistened material to said ed e portions to form a corner receiving. poc et; said applying means being provided with means for withdrawing said holding means just prior to the application of said'cap to said edge portions.

55. In a machine for making, corner-3 mounts, the combination of means for turning over edge portions on the end of a continuous strip of material having an adhesive coating on its under side, means for feeding said strip forward longitudinally one step after said edge portions are turned over, a pair of fingers for holding down said turned over edges, and vertical reciprocating means for applying a cap of moistened material to said edge portions to form a corner receiving pocket; said last mentioned means being provided with means for moving said holding means out of the way on its downward stroke.

'56. In a machine for making corner mounts, the combination of means for turn ing over edge portions on the 'end of a continuous strip of material having an adhesive coating on its under side, means for feeding said strip forward one step after said edge 

